Textiles are getting smarter, and much of this is being enabled by
nanotechnology. "Smart Textiles and Nanotechnologies: Applications
Technologies and Markets" provides the most in depth look to date at the
impact of nanotechnology on the global textile industry, looking at
technologies and applications from graphene to smart homes.

Expanded and revised for 2014, over 280 pages "Smart Textiles and
Nanotechnologies: Applications Technologies and Markets" looks at the
technologies involved from silver nanoparticles to electrospun graphene
fivers, the companies applying them, and the impact on sectors including
apparel, home, military, technical and medical textiles.

Detailed market figures are given from 2012-2022, along with an analysis of
the key opportunities, illustrated with 140 figures and 14 tables.

With over a billion Bluetooth enabled devices on the market, ranging from
smartphones to set top boxes, and new technologies such as energy scavenging
or piezoelectric energy generation being made possible by the use of
nanotechnologies , there are opportunities for the textile industry in new
markets ranging from consumer electronics to medical diagnostics.

Market Scope

This report provides an in-depth presentation of recent developments in
nanotechnology applied to smart textiles and provides market opportunities to
2022. The market is segmented by

Clothing & Apparel

Home Textiles

Military Textiles

Medical Textiles

Sport Textiles

Technical and Smart Textiles

Companies mentioned in this report include:

Adidas

Adidas Wearable Sports

Advanced Nano Products, Inc.

AdvanPro Limited

Ahlstrom Vaporcool

AiQ Smart Clothing Inc.

Alexium

Algebra

Alltracel Pharmaceuticals

Andeson Bio-tech Co

Applied DNA Sciences

Applied EM

ARC Outdoors

ARC Technologies

Arcteryx,

Asahi Kasei

ASICS

ATHOS

Avelana

Balton Sp. Z.o.o

BASF

Beijing ChamGo Nano-Tech Co

Bekaert Textiles

Belt Tech

Berlei

BigSky Technologies LLC

Bluestar

Bonar Technical Fabrics AG

Bridgedale

Brooks Bros., USA

Bruck Textiles

Burlington Industries, Inc., USA

Canada Goose,

Cardinal Health

CC-NanoChem, Germany

Chamchuree

Chonbang, Co. Ltd.

Ciba Specialty Chemicals

Clariant

Clothing+

Cocona Fabric

Columbia Sportswear Company

Cook Medical

CTT Group

Cube

CuteCircuit

Cyanine Technologies srl

Dainese.

Danfoss PolyPower

Daniel Hechter,

Degussa

Delta Galil Industries Ltd

Denizli Basma ve Boya Sanayii a.s. (DEBA),

Donaldson

Dow Corning

Drapilux

Duke University, USA

DuPont

DuPont Speciality Chemicals

Duro Textiles

Eddie Bauer

Eleksen

Element 47

Elmarco

ELMARCO s.r.o.

EMPA

Endor Nanotechnologies

Energenics

ETTLIN Textiles

Evonik

Exlan Co., Ltd

Fibretronic Limited

Formosa Taffeta

Forster Rohner AG

Foster Miller

Fountain Set (Holdings) Limited

Fuji Electric

G3i Technology Innovations

Gap

Garmont

Goldenlady

Greenyarn

Guahoo

Haojey Co

Henry Lloyd,

Hills Inc

Hovding

Hugo Boss

Hyosung

Industrial Nanotech, Inc

Innotech Textile Co. Ltd

International Flavours and Fragrances

Ironman

J-Teck

J2LFA Co. Ltd

Jack Wolfskin

JR Nanotech

JX Nippon Oil and Energy Corporation

Kanebo

Kanebo Spinning Corp

Kao Corp.

Kao Corp. Japan

Kennedy & Violich Architecture

King's Metal Fiber Technologies

KJUS

Kolon, Korea

Kolorgen Ltd

Konarka Technologies Inc

KVA Matx

Land's End, Inc.

Lea Lea Group

Lee Jeans

Levi Strauus

LG Chem

Liberec

Lindenfarb Textilveredlung Julius Probst

Lindstrand Technologies

LLBean

Lockheed Martin Corp

Louis Vuitton

Mammut

Mammut,

Markische Faser

Marks & Spencer

MBody

MC10

Misfit Wearables

Mission Ready Services

Mitsubishi

Mitsubishi

Nano Phase Technologies Corporation (NTC)

Nano-Group Holdings Ltd

Nano-Tex, USA

NanoCare

NanoChem

Nanocid Pars Nano Nasb

Nanocomp Technologies Inc

Nanocyl

Nanoglide

NanoHorizons

Nanophase

Nanoscience Technologies Incorporated

NanoSonic Inc.,

Nanyan Textiles

nCoat, Inc

New Balance

Nike

No-Contact

Nordstrom

NovaThera

Nucryst Pharmaceuticals

NuMetrex

Nylstar

Odlo

Ohmatex

Old Navy

Oxonica

Paul Stuart

Peerless Plastics & Coatings Ltd

Peter Brehm

PGA

Philips Lighting

Piedmont Chemical Industries, Inc

Pikeaur

Pikeur

Polar Elektro

Polo Ralph Lauren

Protex

Quest International

Radiation Shield Technologies, Inc.,

Radici

Reebock

Reliable

Roudiere

Salewa

Salomon Socks

Samsung

Schill+Seilacher

Schmitz

Schoeller Medical AG

Schoeller Textiles AG

Sefar AG

Seger

Sensing Tex, S.L.

Shanghai Hengjia Textile Company

Simmons

Simms

SNS Nanofiber

Soane Labs

Sony

SparkFun

Sphelar Power Corp.

Struktol

Suzutora

Takeda Chemical Industries

Teijin Fibres Ltd

Tex-Ray

Texnology Nano Textile (China), Ltd.

Textronics

The North Face

Thomson Research Associates Inc

Toray Industries, Inc

Toyobo, Ltd.

Trangoworld

TRG/Victorinox

TWE.

U-Right International Holdings Limited

United Textile Mills

VDS Weaving NV

W.L. Gore

Wacker

WEEL Technologies

Westaim Corporation

Wibur Ross

Wirth Fulda

XS Labs

Zephyr Technology Limited

Table of Contents

Companies Mentioned In This Report

Introduction

Graphene's Properties Prove Attractive for Electronics

The Dream of Supercapacitor-enabled All-Electric Vehicles

Key Findings

Background

Role of Graphene in Supercapacitors

Research Results with Graphene and Capacitance

Obstacles in Translating Surface Area to Capacitance for Graphene

Advantages of Graphene for Supercapacitors

Ten-Year Market Forecast For The Overall Supercapacitor Industry

Segmentation of the supercapacitor industry

Applications In Each Category

Electronics

Consumer Electronics

Professional Electronics

Energy

Automated Meter Readings

Medium-sized Wind Turbines

Uninterruptible Power Supplies (UPS)

Power Lines

Transportation

Other

Aviation

Military

Future Applications

List of electrode materials used in supercapacitors

Insights into supercapacitor bill of materials (BoM) cost structure

Components

Costs Associated with EDLC Manufacturing

Manufacturing methods

Plasma 1 Approach

Plasma Approach 2

Liquid Phase Exfoliation

Oxidation Reduction

Chemical Vapor Deposition

Preferred form of graphene for supercapacitors

Analysis of key points-of-pain and what graphene composite material would have to achieve to solve these